Universal regular control for generic semilinear systems
Abstract
We consider discrete-time projective semilinear control systems , where the states are in projective space , inputs are in a manifold of arbitrary finite dimension, and is a differentiable mapping. An input sequence is called universally regular if for any initial state , the derivative of the time- state with respect to the inputs is onto. In this paper we deal with the universal regularity of constant input sequences . Our main result states that generically in the space of such systems, for sufficiently large , all constant inputs of length are universally regular, with the exception of a discrete set. More precisely, the conclusion holds for a -open and -dense set of maps , and only depends on and on the dimension of . We also show that the inputs on that discrete set are nearly universally regular; indeed there is a unique non-regular initial state, and its corank is . In order to establish the result, we study the spaces of bilinear control systems. We show that the codimension of the set of systems for which the zero input is not universally regular coincides with the dimension of the control space. The proof is based on careful matrix analysis and some elementary algebraic geometry. Then the main result follows by applying standard transversality theorems.
Keywords
Cite
@article{arxiv.1201.1672,
title = {Universal regular control for generic semilinear systems},
author = {Jairo Bochi and Nicolas Gourmelon},
journal= {arXiv preprint arXiv:1201.1672},
year = {2013}
}
Comments
48 pages. This version incorporates suggestions and corrections by the referees. It also includes arXiv:1201.2217 as an Appendix